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7Information on compiling and executing ntpd under Solaris.
8<BR>
9Last Updated: Sun Jun 21 01:32:18 EDT 1998,
10John Hawkinson,
11<! -- This is deliberately not a mailto -- > &lt;jhawk@MIT.EDU&gt;
12<P>
13If you're not running Solaris 2.5.1 or later, it is likely
14that you will have problems; upgrading would be a really good plan.
15<P>
16<H3>All Solaris versions</H3>
17<P>
18      We have a report that says starting with Solaris 2.6 we should leave
19      <I>dosynctodr</I> alone.
20      <A HREF="solaris-dosynctodr.html">Here is the report</A>.
21<P>
22Proper operation of ntp under Solaris may require setting the kernel
23variable <I>dosynctodr</I> to zero (meaning "do not synchronize the clock
24to the hardware time-of-day clock").  This can be done with the
25tickadj utility:
26<BLOCKQUOTE><TT>
27tickadj -s
28</TT></BLOCKQUOTE>
29If you prefer, it can also be done with the native Solaris kernel debugger:
30<BLOCKQUOTE><TT>
31echo dosynctodr/W0 | adb -k -w /dev/ksyms /dev/mem
32</BLOCKQUOTE></TT>
33<P>
34Or, it can also be set by adding a line to /etc/system:
35<BLOCKQUOTE><TT>
36set dosynctodr = 0
37</BLOCKQUOTE></TT>
38<P>
39Instead of the <I>tick</I> kernel variable, which many operating
40systems use to control microseconds added to the system time every
41clock tick (c.f. <A HREF="../notes.html#frequency_tolerance">Dealing
42with Frequency Tolerance Violations</A>), Solaris has the variables
43<I>nsec_per_tick</I> and <I>usec_per_tick</I>.
44<P>
45<I>nsec_per_tick</I> and <I>usec_per_tick</I> control the number of
46nanoseconds and microseconds, respectively, added to the system clock
47each clock interrupt. Enterprising souls may set these based on
48information collected by ntpd in the <CODE>/etc/ntp.drift</CODE> file
49to correct for individual hardware variations.
50<P>
51On UltraSPARC systems, <I>nsec_per_tick</I> and <I>usec_per_tick</I>
52are ignored in favor of the <I>cpu_tick_freq</I> variable, which
53should be automatically be determined by the PROM in an accurate
54fashion.
55<P>
56In general, the same ntp binaries should not be used across multiple
57operating system releases. There is enough variation in the core operating
58system support for timekeeping that a rebuild of ntpd for the idiosyncracies
59of your specific operating system version is advisable.
60<P>
61It is recommended that ntp be started via a script like <A
62HREF="solaris.xtra.S99ntpd">this one</A>, installed in
63<CODE>/etc/init.d/ntpd</CODE> with a symbol link from
64<CODE>/etc/rc2.d/S99ntpd</CODE>.
65
66<H3>Solaris 2.6</H3>
67<P>
68Solaris 2.6 adds support for kernel PLL timekeeping, but breaks this
69support in such a fashion that using it worse than not. This is <A
70HREF="solaris.xtra.4095849"> SUN Bug ID 4095849</A>, and it is not yet
71fixed as of June 1998.
72<P>
73<H3>Solaris 2.5 and 2.5.1</H3>
74<P>
75On UltraSPARC systems, calculation of <I>cpu_tick_freq</I> is broken
76such that values that are off by significant amounts may be used
77instead. This unfortunately means that ntpd may have severe problems
78keeping synchronization. This is <A HREF="solaris.xtra.4023118"> SUN Bug ID
794023118</A>. Bryan Cantrill <! -- &lt;bmc@eng.sun.com&gt; --> of Sun
80posted <A HREF="solaris.xtra.patchfreq">patchfreq</A>, a workaround script,
81to comp.protocols.time.ntp in March of 1997.
82<P>
83<HR>
84<H2>OLD DATA</H2>
85<STRONG>I can't vouch for the accuracy the information below this
86rule. It may be significantly dated or incorrect.</STRONG>
87<P>
88<P>
89<H3>Solaris 2.2</H3>
90<P>
91Solaris 2.2 and later contain completely re-written clock code to
92provide high resolution microsecond timers. A benefit of the
93re-written clock code is that adjtime does not round off its
94adjustments, so ntp does not have to compensate for this
95rounding. Under Solaris 2.2 and later, ntp #define's
96<CODE>ADJTIME_IS_ACCURATE</CODE>, and does not look for the <I>tickadj</I>
97kernel variable.
98<P>
99<H3>Solaris 2.1</H3>
100(This originally written by William L. Jones &lt;jones@chpc.utexas.edu&gt;)
101<P>
102Solaris 2.1 contains fairly traditional clock code, with <I>tick</I>
103and <I>tickadj</I>.
104<P>
105Since settimeofday under Solaris 2.1 only sets the seconds part of timeval
106care must be used in starting xntpd.  I suggest the following start
107up script:
108<BLOCKQUOTE><TT>
109tickadj -s -a 1000
110<BR>ntpdate -v server1 server2
111<BR>sleep 20
112<BR>ntpdate -v server1 server2
113<BR>sleep 20
114<BR>tickadj -a 200
115<BR>xntpd
116</TT></BLOCKQUOTE>
117
118The first tickadj turns of the time of day clock and sets the tick
119adjust value to 1 millisecond.  This will insure that an adjtime value
120of at most 2 seconds will complete in 20 seconds.
121<P>
122The first ntpdate will set the time to within two seconds
123using settimeofday or it will adjust time using adjtime.
124<P>
125The first sleep insures the adjtime has completed for the first ntpdate.
126<P>
127The second ntpdate will use adjtime to set the time of day since the
128clock should be within 2 seconds of the correct time.
129<P>
130The second tickadj set the tick adjust system value to 5 microseconds.
131<P>
132The second sleeps insure that adjtime will complete before starting
133the next xntpd.
134<P>
135I tried running with a tickadj of 5 microseconds with out much success.
136200 microseconds seems to work well.
137<P>
138<HR>
139Prior versions of this file had major text contributed by:
140<MENU>
141<LI>Denny Gentry &lt;denny@eng.sun.com&gt;
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